SU279193A1 - DEVICE FOR INTEGRATING ELECTRIC SIGNAL - Google Patents

Description

The invention is related to technical means of cybernetics.

Integration is one of the most common operations of multiple computational processes. It takes place in many cases of information processing, when performing automatical control, automatic control and regulation.

The axial characteristics of the integrators are the accuracy and speed of the integral calculation. These characteristics depend on the adopted integration method.

Various methods are known for performing number integration and integration using analog devices. The calculation of the integral using analog devices is characterized by high speed, but it is not always suitable because of the accuracy of the result obtained. The use of numerical methods and iteration gives more accurate results. By the speed of the calculation of the integral in this case it is inversely related to accuracy; The higher the accuracy, the lower the speed of the calculations.

The advantage of the present invention is more accurate and fast, and the electric signal is simulated within a predetermined time. This goal is achieved by building an integrating

devices, the essence of which is as follows:

the integrated electrical signal y (f) is quantized simultaneously both at the level y and the independent variable t according to any of the possible quantization algorithms;

Based on the obtained quantization points, an open electrical signal is constructed, which is a stepped quantized

function g / with /

From the original integrated electrical signal y (t), the on-signal electrical signal y (t) is subtracted, and as a result, a difference electric signal or a difference function yp (t) is obtained,

The integral of the stepped quantized function is calculated with the help of the numerical integration method but the rectangle method

y (0;

with the help of three-step integrating time pulse converters, the integral Zur (t) from the difference function g / pCO is calculated;

the sum of 5 two integrals is calculated: the integral of the staged quantized function Sy (T) and the integral of the difference function Syp (t). Thus a sum of two is paid

determine the value of the initial integral 5 of the input electrical signal y (t).

In the drawing, a block diagram of a device by which the integral of an electronic sial is calculated.

The device consists of the following blocks:

1 - analog converter - cathode; 2 - analog-digital integrating converters; - control unit; 4 — block performing integration by the rectangle method; 5 - summing block.

The original electrical signal y (t) enters the analogue – code converter and is quantized in terms of both y and its independent variable /. The quantized values of the electrical signal are output from block 1 to block 4, where the integral of the quantized step function is calculated by the rectangle method. Simultaneously, in block 1, the difference is calculated; the reference signal y (t) is subtracted from the original electrical signal y (t) and the resulting differential signal U (t) is fed to block 2. Here the differential electric signal y p (t) is integrated by means of integrating analogs. go-to-digital converters. According to a command from the control unit 3, the calculated values of the integrals of the functions Ur () and y (t) are supplied from blocks 2 to 4 to block 6, where they are summed and as a result the value of the desired integral S from the signal y (t) is determined.

Subject and d on and e and

A device for integrating an electrical sigal containing an analog-cathode converter, an integrator implementing a rectangle method, a control unit, an adder, characterized in that, in order to improve the accuracy and integration, it contains integrated analog-digital converters whose inputs are connected to the analog converter outputs - code, and the outputs are connected to adders.